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serenity/Userland/Libraries/LibJS/Bytecode/Op.h
Ali Mohammad Pur 1414c7b049 LibJS: Add a basic pass manager and add some basic passes 
This commit adds a bunch of passes, the most interesting of which is a
pass that merges blocks together, and a pass that places blocks that
flow into each other next to each other, and a very simply pass that
removes duplicate basic blocks.
Note that this does not remove the jump at the end of each block in that
pass to avoid scope creep in the passes.
2021-06-15 22:06:33 +04:30

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/*
* Copyright (c) 2021, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2021, Linus Groh <linusg@serenityos.org>
* Copyright (c) 2021, Gunnar Beutner <gbeutner@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <LibCrypto/BigInt/SignedBigInteger.h>
#include <LibJS/Bytecode/Instruction.h>
#include <LibJS/Bytecode/Label.h>
#include <LibJS/Bytecode/Register.h>
#include <LibJS/Bytecode/StringTable.h>
#include <LibJS/Heap/Cell.h>
#include <LibJS/Runtime/ScopeObject.h>
#include <LibJS/Runtime/Value.h>
namespace JS::Bytecode::Op {
class Load final : public Instruction {
public:
explicit Load(Register src)
: Instruction(Type::Load)
, m_src(src)
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
private:
Register m_src;
};
class LoadImmediate final : public Instruction {
public:
explicit LoadImmediate(Value value)
: Instruction(Type::LoadImmediate)
, m_value(value)
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
private:
Value m_value;
};
class Store final : public Instruction {
public:
explicit Store(Register dst)
: Instruction(Type::Store)
, m_dst(dst)
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
private:
Register m_dst;
};
#define JS_ENUMERATE_COMMON_BINARY_OPS(O) \
O(Add, add) \
O(Sub, sub) \
O(Mul, mul) \
O(Div, div) \
O(Exp, exp) \
O(Mod, mod) \
O(In, in) \
O(InstanceOf, instance_of) \
O(GreaterThan, greater_than) \
O(GreaterThanEquals, greater_than_equals) \
O(LessThan, less_than) \
O(LessThanEquals, less_than_equals) \
O(AbstractInequals, abstract_inequals) \
O(AbstractEquals, abstract_equals) \
O(TypedInequals, typed_inequals) \
O(TypedEquals, typed_equals) \
O(BitwiseAnd, bitwise_and) \
O(BitwiseOr, bitwise_or) \
O(BitwiseXor, bitwise_xor) \
O(LeftShift, left_shift) \
O(RightShift, right_shift) \
O(UnsignedRightShift, unsigned_right_shift)
#define JS_DECLARE_COMMON_BINARY_OP(OpTitleCase, op_snake_case) \
class OpTitleCase final : public Instruction { \
public: \
explicit OpTitleCase(Register lhs_reg) \
: Instruction(Type::OpTitleCase) \
, m_lhs_reg(lhs_reg) \
{ \
} \
\
void execute_impl(Bytecode::Interpreter&) const; \
String to_string_impl(Bytecode::Executable const&) const; \
void replace_references_impl(BasicBlock const&, BasicBlock const&) { } \
\
private: \
Register m_lhs_reg; \
};
JS_ENUMERATE_COMMON_BINARY_OPS(JS_DECLARE_COMMON_BINARY_OP)
#undef JS_DECLARE_COMMON_BINARY_OP
#define JS_ENUMERATE_COMMON_UNARY_OPS(O) \
O(BitwiseNot, bitwise_not) \
O(Not, not_) \
O(UnaryPlus, unary_plus) \
O(UnaryMinus, unary_minus) \
O(Typeof, typeof_)
#define JS_DECLARE_COMMON_UNARY_OP(OpTitleCase, op_snake_case) \
class OpTitleCase final : public Instruction { \
public: \
OpTitleCase() \
: Instruction(Type::OpTitleCase) \
{ \
} \
\
void execute_impl(Bytecode::Interpreter&) const; \
String to_string_impl(Bytecode::Executable const&) const; \
void replace_references_impl(BasicBlock const&, BasicBlock const&) { } \
};
JS_ENUMERATE_COMMON_UNARY_OPS(JS_DECLARE_COMMON_UNARY_OP)
#undef JS_DECLARE_COMMON_UNARY_OP
class NewString final : public Instruction {
public:
explicit NewString(StringTableIndex string)
: Instruction(Type::NewString)
, m_string(string)
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
private:
StringTableIndex m_string;
};
class NewObject final : public Instruction {
public:
NewObject()
: Instruction(Type::NewObject)
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
};
class NewBigInt final : public Instruction {
public:
explicit NewBigInt(Crypto::SignedBigInteger bigint)
: Instruction(Type::NewBigInt)
, m_bigint(move(bigint))
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
private:
Crypto::SignedBigInteger m_bigint;
};
// NOTE: This instruction is variable-width depending on the number of elements!
class NewArray final : public Instruction {
public:
explicit NewArray(Vector<Register> const& elements)
: Instruction(Type::NewArray)
, m_element_count(elements.size())
{
for (size_t i = 0; i < m_element_count; ++i)
m_elements[i] = elements[i];
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
size_t length_impl() const
{
return sizeof(*this) + sizeof(Register) * m_element_count;
}
private:
size_t m_element_count { 0 };
Register m_elements[];
};
class ConcatString final : public Instruction {
public:
explicit ConcatString(Register lhs)
: Instruction(Type::ConcatString)
, m_lhs(lhs)
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
private:
Register m_lhs;
};
class SetVariable final : public Instruction {
public:
explicit SetVariable(StringTableIndex identifier)
: Instruction(Type::SetVariable)
, m_identifier(identifier)
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
private:
StringTableIndex m_identifier;
};
class GetVariable final : public Instruction {
public:
explicit GetVariable(StringTableIndex identifier)
: Instruction(Type::GetVariable)
, m_identifier(identifier)
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
private:
StringTableIndex m_identifier;
};
class GetById final : public Instruction {
public:
explicit GetById(StringTableIndex property)
: Instruction(Type::GetById)
, m_property(property)
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
private:
StringTableIndex m_property;
};
class PutById final : public Instruction {
public:
explicit PutById(Register base, StringTableIndex property)
: Instruction(Type::PutById)
, m_base(base)
, m_property(property)
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
private:
Register m_base;
StringTableIndex m_property;
};
class GetByValue final : public Instruction {
public:
explicit GetByValue(Register base)
: Instruction(Type::GetByValue)
, m_base(base)
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
private:
Register m_base;
};
class PutByValue final : public Instruction {
public:
PutByValue(Register base, Register property)
: Instruction(Type::PutByValue)
, m_base(base)
, m_property(property)
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
private:
Register m_base;
Register m_property;
};
class Jump : public Instruction {
public:
constexpr static bool IsTerminator = true;
explicit Jump(Type type, Optional<Label> taken_target = {}, Optional<Label> nontaken_target = {})
: Instruction(type)
, m_true_target(move(taken_target))
, m_false_target(move(nontaken_target))
{
}
explicit Jump(Optional<Label> taken_target = {}, Optional<Label> nontaken_target = {})
: Instruction(Type::Jump)
, m_true_target(move(taken_target))
, m_false_target(move(nontaken_target))
{
}
void set_targets(Optional<Label> true_target, Optional<Label> false_target)
{
m_true_target = move(true_target);
m_false_target = move(false_target);
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&);
auto& true_target() const { return m_true_target; }
auto& false_target() const { return m_false_target; }
protected:
Optional<Label> m_true_target;
Optional<Label> m_false_target;
};
class JumpConditional final : public Jump {
public:
explicit JumpConditional(Optional<Label> true_target = {}, Optional<Label> false_target = {})
: Jump(Type::JumpConditional, move(true_target), move(false_target))
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
};
class JumpNullish final : public Jump {
public:
explicit JumpNullish(Optional<Label> true_target = {}, Optional<Label> false_target = {})
: Jump(Type::JumpNullish, move(true_target), move(false_target))
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
};
// NOTE: This instruction is variable-width depending on the number of arguments!
class Call final : public Instruction {
public:
enum class CallType {
Call,
Construct,
};
Call(CallType type, Register callee, Register this_value, Vector<Register> const& arguments)
: Instruction(Type::Call)
, m_callee(callee)
, m_this_value(this_value)
, m_type(type)
, m_argument_count(arguments.size())
{
for (size_t i = 0; i < m_argument_count; ++i)
m_arguments[i] = arguments[i];
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
size_t length_impl() const
{
return sizeof(*this) + sizeof(Register) * m_argument_count;
}
private:
Register m_callee;
Register m_this_value;
CallType m_type;
size_t m_argument_count { 0 };
Register m_arguments[];
};
class NewFunction final : public Instruction {
public:
explicit NewFunction(FunctionNode const& function_node)
: Instruction(Type::NewFunction)
, m_function_node(function_node)
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
private:
FunctionNode const& m_function_node;
};
class Return final : public Instruction {
public:
constexpr static bool IsTerminator = true;
Return()
: Instruction(Type::Return)
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
};
class Increment final : public Instruction {
public:
Increment()
: Instruction(Type::Increment)
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
};
class Decrement final : public Instruction {
public:
Decrement()
: Instruction(Type::Decrement)
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
};
class Throw final : public Instruction {
public:
constexpr static bool IsTerminator = true;
Throw()
: Instruction(Type::Throw)
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
};
class EnterUnwindContext final : public Instruction {
public:
constexpr static bool IsTerminator = true;
EnterUnwindContext(Label entry_point, Optional<Label> handler_target, Optional<Label> finalizer_target)
: Instruction(Type::EnterUnwindContext)
, m_entry_point(move(entry_point))
, m_handler_target(move(handler_target))
, m_finalizer_target(move(finalizer_target))
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&);
auto& entry_point() const { return m_entry_point; }
auto& handler_target() const { return m_handler_target; }
auto& finalizer_target() const { return m_finalizer_target; }
private:
Label m_entry_point;
Optional<Label> m_handler_target;
Optional<Label> m_finalizer_target;
};
class LeaveUnwindContext final : public Instruction {
public:
LeaveUnwindContext()
: Instruction(Type::LeaveUnwindContext)
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
};
class ContinuePendingUnwind final : public Instruction {
public:
constexpr static bool IsTerminator = true;
explicit ContinuePendingUnwind(Label resume_target)
: Instruction(Type::ContinuePendingUnwind)
, m_resume_target(resume_target)
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&);
auto& resume_target() const { return m_resume_target; }
private:
Label m_resume_target;
};
class Yield final : public Instruction {
public:
constexpr static bool IsTerminator = true;
explicit Yield(Label continuation_label)
: Instruction(Type::Yield)
, m_continuation_label(continuation_label)
{
}
explicit Yield(std::nullptr_t)
: Instruction(Type::Yield)
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&);
auto& continuation() const { return m_continuation_label; }
private:
Optional<Label> m_continuation_label;
};
class PushLexicalEnvironment final : public Instruction {
public:
explicit PushLexicalEnvironment(HashMap<u32, Variable> variables)
: Instruction(Type::PushLexicalEnvironment)
, m_variables(move(variables))
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
private:
HashMap<u32, Variable> m_variables;
};
class LoadArgument final : public Instruction {
public:
explicit LoadArgument(size_t index)
: Instruction(Type::LoadArgument)
, m_index(index)
{
}
void execute_impl(Bytecode::Interpreter&) const;
String to_string_impl(Bytecode::Executable const&) const;
void replace_references_impl(BasicBlock const&, BasicBlock const&) { }
private:
size_t m_index { 0 };
};
}
namespace JS::Bytecode {
ALWAYS_INLINE void Instruction::execute(Bytecode::Interpreter& interpreter) const
{
#define __BYTECODE_OP(op) \
case Instruction::Type::op: \
return static_cast<Bytecode::Op::op const&>(*this).execute_impl(interpreter);
switch (type()) {
ENUMERATE_BYTECODE_OPS(__BYTECODE_OP)
default:
VERIFY_NOT_REACHED();
}
#undef __BYTECODE_OP
}
ALWAYS_INLINE void Instruction::replace_references(BasicBlock const& from, BasicBlock const& to)
{
#define __BYTECODE_OP(op) \
case Instruction::Type::op: \
return static_cast<Bytecode::Op::op&>(*this).replace_references_impl(from, to);
switch (type()) {
ENUMERATE_BYTECODE_OPS(__BYTECODE_OP)
default:
VERIFY_NOT_REACHED();
}
#undef __BYTECODE_OP
}
ALWAYS_INLINE size_t Instruction::length() const
{
if (type() == Type::Call)
return static_cast<Op::Call const&>(*this).length_impl();
else if (type() == Type::NewArray)
return static_cast<Op::NewArray const&>(*this).length_impl();
#define __BYTECODE_OP(op) \
case Type::op: \
return sizeof(Op::op);
switch (type()) {
ENUMERATE_BYTECODE_OPS(__BYTECODE_OP)
default:
VERIFY_NOT_REACHED();
}
#undef __BYTECODE_OP
}
ALWAYS_INLINE bool Instruction::is_terminator() const
{
#define __BYTECODE_OP(op) \
case Type::op: \
return Op::op::IsTerminator;
switch (type()) {
ENUMERATE_BYTECODE_OPS(__BYTECODE_OP)
default:
VERIFY_NOT_REACHED();
}
#undef __BYTECODE_OP
}
}
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